Overexpression of Human Chorionic Gonadotropin Causes Multiple Reproductive Defects in Transgenic Mice1

Human CG is a pregnancy marker secreted by the placenta, and it utilizes the same receptors as does LH. Human CG is a heterodimer, and its subunits are expressed in tissues other than placenta. Similarly, LH/hCG receptors are also expressed in multiple tissues; however, the physiological significanc...

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Published in:Biology of reproduction 2003-07, Vol.69 (1), p.338-346
Main Authors: Matzuk, Martin M, DeMayo, Francesco J, Hadsell, Lou Ann, Kumar, T. Rajendra
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male reproductive tract
ovary
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testis
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creator Matzuk, Martin M
DeMayo, Francesco J
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Kumar, T. Rajendra
description Human CG is a pregnancy marker secreted by the placenta, and it utilizes the same receptors as does LH. Human CG is a heterodimer, and its subunits are expressed in tissues other than placenta. Similarly, LH/hCG receptors are also expressed in multiple tissues; however, the physiological significance of this expression is unknown. Free hCGβ is efficiently secreted in vitro in transfected cells and is highly expressed in many human cancers; however, the biological effects of free hCGβ in vivo are unknown. To study in vivo consequences of elevated levels of free hCGβ and hCG dimer in both male and female reproductive physiology, we used mouse metallothionein 1 promoter to generate multiple lines of transgenic mice that overexpressed either one or both subunits of hCG. Although mice expressing the glycoprotein hormone α subunit are normal and fertile, both male and female transgenic mice overexpressing only the hormone-specific hCGβ subunit are infertile. The hCGβ subunit-expressing transgenic female mice progressively develop cystic ovaries, whereas the male transgenic mice are infertile but otherwise are not phenotypically discernible. In contrast, both the male and female transgenic mice coexpressing high levels of the hCG subunits (i.e., the hCG dimer) demonstrate multiple reproductive defects. The male transgenic mice have Leydig cell hyperplasia, very high levels of serum testosterone, reduced testis size, and dramatically enlarged seminal vesicles and are infertile and display overly aggressive behavior when caged with females. The female transgenic mice are also infertile, have elevated levels of serum estradiol, and progressively develop hemorrhagic and cystic ovaries with thecal layer enlargement and stromal cell proliferation and degenerating kidneys. These results suggest that the in vivo biological effects of ectopically expressed free hCGβ subunit are distinct from those of the hCG dimer and are gender specific. These transgenic mice are useful models for studying the biology of free hCGβ subunit, for further analyzing the gain of function effects of hCG during early Leydig cell development, and for studying the roles of hCG in ovarian and kidney pathophysiology and function.
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Although mice expressing the glycoprotein hormone α subunit are normal and fertile, both male and female transgenic mice overexpressing only the hormone-specific hCGβ subunit are infertile. The hCGβ subunit-expressing transgenic female mice progressively develop cystic ovaries, whereas the male transgenic mice are infertile but otherwise are not phenotypically discernible. In contrast, both the male and female transgenic mice coexpressing high levels of the hCG subunits (i.e., the hCG dimer) demonstrate multiple reproductive defects. The male transgenic mice have Leydig cell hyperplasia, very high levels of serum testosterone, reduced testis size, and dramatically enlarged seminal vesicles and are infertile and display overly aggressive behavior when caged with females. The female transgenic mice are also infertile, have elevated levels of serum estradiol, and progressively develop hemorrhagic and cystic ovaries with thecal layer enlargement and stromal cell proliferation and degenerating kidneys. These results suggest that the in vivo biological effects of ectopically expressed free hCGβ subunit are distinct from those of the hCG dimer and are gender specific. 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subjects Contents
female reproductive tract
male reproductive tract
ovary
pituitary
testis
title Overexpression of Human Chorionic Gonadotropin Causes Multiple Reproductive Defects in Transgenic Mice1
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